Your search found 11 records
1 Bastiaanssen, W.. 1997. Space observations on uniformity of irrigation water distribution. ITIS (Information Techniques for Irrigation Systems), 4(1):8-9.
Remote sensing ; Satellite surveys ; Water allocation ; Equity ; Protective irrigation ; Water distribution / Egypt / India / Argentina / Nile Delta / Haryana / Mendoza Province / Tunuyan River
(Location: IWMI-HQ Call no: PER Record No: H021963)
(0.16 MB)
2 Schakel, J. K.; Bastiaanssen, W.. 1997. Regional water and salt balances obtained from GIS and hydrological models. ITIS (Information Techniques for Irrigation Systems), 4(1):15-17.
GIS ; Hydrology ; Simulation models ; Decision support tools ; Water allocation ; Water conveyance ; Irrigation canals / India / Haryana / Bhakra Canal Command Area
(Location: IWMI-HQ Call no: PER Record No: H021967)
(0.25 MB)
3 Bandara, P.; Bastiaanssen, W.; Janssen, L. 1998. Land surface evapotranspiration for water balance in the Kirindi Oya Watershed: a remote sensing approach. Paper 133 of Session 15. In International Irrigation Management Institute (IIMI). National Water Conference on Status and Future Directions of Water Research in Sri Lanka, BMICH, Colombo, Sri Lanka, 4-6 November 1998. Session 13: Watershed management II; Session 14: Rural water quality; Session 15: Precipitation and evapotranspiration. Research papers presented. 9p.
Watersheds ; Water balance ; Evapotranspiration ; Water use ; Remote sensing ; Satellite surveys ; Soil temperature ; Models / Sri Lanka / Kirindi Oya
(Location: IWMI HQ Call no: IWMI 333.91 G744 INT Record No: H023535)
(0.79 MB)
4 Sakthivadivel, R.; Bastiaanssen, W.; Thiruvengadachari, S.; Molden, D. 1999. Performance evaluation of the Bhakra Irrigation System, India, using remote sensing, hydrologic modeling and GIS techniques. In ICID, 17th Congress on Irrigation and Drainage, Granada, Spain, 1999: Water for Agriculture in the Next Millennium - Transactions, Vol.1B, Q.48: Irrigation under conditions of water scarcity; Q.48.3: Conjunctive use of surface and groundwater; 48.4: Implication of water transfer schemes for agriculture; 48.5: Environmental implications of water scarcity conditions. New Delhi, India: ICID. pp.1-20.
Irrigation systems ; Irrigation canals ; Performance evaluation ; Remote sensing ; Hydrology ; Models ; GIS ; Waterlogging ; Salinity ; Irrigation scheduling ; Irrigated farming ; Wheat / India / Haryana / Bhakra
(Location: IWMI-HQ Call no: ICID 631.7 G000 ICI, IIMI 631.7.1 G635 Record No: H025129)
5 Bastiaanssen, W.. 2000. Shared water resources information from space: New management opportunities or unwanted interference? Enschede, Netherlands: International Institute for Aerospace Survey and Earth Sciences (ITC) 22p.
Remote sensing ; Satellite surveys ; Data collection ; Water resource management ; River basins ; History ; Hydrology ; Water scarcity ; Water use ; Evapotranspiration ; Irrigated farming ; Performance indexes ; Development aid
(Location: IWMI-SA Call no: IIMI 333.91 G000 BAS Record No: H026009)
Inaugural address delivered on "Application of Remote Sensing in Water Resources Management" at ITC in Enschede, Netherlands, on March 24, 2000.
6 Droogers, P.; Bastiaanssen, W.. 2000. Combining remote sensing and hydrological models to increase spatial and temporal resolution. Paper presented at "Remote Sensing and Hydrology 2000 Symposium", Santa Fe, New New Mexico, USA, 2-7 May 2000. International Commission on Remote Sensing of the IAHS; NASA; US.ARS; National water Research Centre, Canada ...: Abstracts; In IAHS, Red Book series. pp.1020-1040.
(Location: IWMI-HQ Call no: IIMI 631.7.1 G000 DRO Record No: H026037)
7 Droogers, P.; Bastiaanssen, W.. 2002. Irrigation performance using hydrological and remote sensing modeling. Journal of Irrigation and Drainage Engineering, 128(1):11-18.
Irrigation programs ; Performance indexes ; Hydrology ; Precipitation ; Remote sensing ; Models ; Evapotranspiration ; Water requirements ; Crop production ; Soil water ; Water balance / Turkey / Gediz Basin
(Location: IWMI-HQ Call no: PER, IWMI 631.7.1 G830 DRO Record No: H029700)
(0.86 MB)
8 Bastiaanssen, W.; Ahmad, Mobin-ud -Din; Tahir, Z. 2003. Upscaling water productivity in irrigated agriculture using remote-sensing and GIS technologies. In Kijne, J. W.; Barker, R.; Molden. D. (Eds.). Water productivity in agriculture: limits and opportunities for improvement. Wallingford, UK: CABI; Colombo, Sri Lanka: International Water Management Institute (IWMI) pp.289-300. (Comprehensive Assessment of Water Management in Agriculture Series 1)
Irrigated farming ; Remote sensing ; GIS ; Water productivity ; River basins ; Hydrology ; Crop yield ; Irrigation canals ; Groundwater
(Location: IWMI-HQ Call no: IWMI 631.7.2 G000 KIJ Record No: H032648)
9 Karimi, Poolad; Molden, David; Bastiaanssen, W.. 2011. Mapping crop water productivity in the Nile Basin through combined use of remote sensing and census data. In ICID. 21st Congress on Irrigation and Drainage: Water Productivity towards Food Security, Tehran, Iran, 15-23 October 2011. New Delhi, India: ICID. pp.137-148. (ICID Transaction No. 30-A)
Crops ; Water productivity ; Mapping ; River basins ; Remote sensing ; Data ; Land productivity ; Land use ; Land cover ; Evapotranspiration ; Farming systems ; Irrigated farming ; Rainfed farming ; Pricing ; Economic aspects / Africa / Ethiopia / Egypt / Sudan / Burundi / Rwanda / Tanzania / Eritrea / Kenya / Zaire / Uganda / Nile River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044424)
http://www.irncid.org/GetFileArticles.aspx?FilePrm=7048_68836.pdf
https://vlibrary.iwmi.org/pdf/H044424.pdf
https://vlibrary.iwmi.org/pdf/H044424.pdf
(1.24 MB) (2.22MB)
Remote sensed imagery in combination with secondary agricultural statistic was used to map crop water productivity (WP) in the Nile River Basin. Land productivity and crop tandardized gross value production (SGVP) were calculated at administrative level using the agricultural census data. Actual evapotranspiration (Eta) generated from remote sensing was used to assess crops consumptive water use. WP was then calculated by dividing SGVP by Eta in the cropped areas. Results show land productivity has a huge variation across the basin. SGVP per hectare in the basin varies from 20 $/ha to 1833 $/ha. Likewise SGVP, water productivity in the basin is highly variable. It ranges from 0.01 $/m3 to 0.2 $/m3. Observed patterns in the water productivity indicate that WP differences in the Nile basin are highly related to crop yield, which varies in different regions and also in irrigated and rainfed systems. Similarly, overall low WP is because of low yields, chiefly rainfed agriculture. This indicates that there is scope for enhancing WP in the Nile Basin through expanding irrigated agriculture and generally increasing yield.
10 Karimi, Poolad; Molden, David; Bastiaanssen, W.; Cai, Xueliang. 2012. Water accounting to assess use and productivity of water: evolution of a concept and new frontiers. In Godfrey, J. M.; Chalmers, K. (Eds.). Water accounting: international approaches to policy and decision-making. Cheltenham, UK: Edward Elgar. pp.76-88.
Water management ; Water scarcity ; Water accounting ; Indicators ; Water use ; Water productivity ; River basins ; Flow discharge / Iran / Africa / Karkheh River Basin / Nile River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044960)
(2.02 MB)
11 Rebelo, Lisa-Maria; Faures, J-M.; Karimi, Poolad; Bastiaanssen, W.; Giordano, Meredith; Smakhtin, Vladimir; McCornick, Peter. 2014. Water metrics. In van der Bliek, Julie; McCornick, Peter; Clarke, James (Eds.). On target for people and planet: setting and achieving water-related sustainable development goals. Colombo, Sri Lanka: International Water Management Institute (IWMI). pp.20-22.
(Location: IWMI HQ Call no: IWMI Record No: H046796)
(331 KB)
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